SHENZHEN SITANSEN PHOTOELECTRIC CO .,LTD
SHENZHEN SITANSEN PHOTOELECTRIC CO., LTD is a Chinese high-tech enterprise engaged in the research and development, production, and sale of high-power LED lighting solutions. The company positions itself as an integrated organization that combines R&D activities with in-house production, enabling vertical control over product development and manufacturing processes. Established in 2005, the company operates a production facility that spans more than 3,000 square meters, reflecting its scale in light-emitting diode technology and related lighting applications.
Based in Shenzhen, a major hub for electronics and tech manufacturing in China, SITANSEN PHOTOELECTRIC emphasizes its status as a high-tech enterprise. While the available information highlights its core focus on high-power LED lighting, specific product lines, market segments, and distribution channels are not detailed in the provided profile. The company’s emphasis on R&D suggests ongoing investment in LED technology advancement, performance optimization, and potential collaboration with customers seeking custom lighting solutions.
In absence of explicit details on service offerings beyond LED lighting development and production, this profile notes the company’s capacity for integrated operations—spanning research, product design, and manufacturing—within the broader context of Shenzhen’s electronics ecosystem. The available data do not specify international certifications, export capabilities, or logistics-related services, so purchasers and partners should seek direct confirmation regarding delivery terms, compliance, and after-sales support.
Given its establishment year of 2005 and its manufacturing footprint, SITANSEN PHOTOELECTRIC Co., Ltd appears positioned to support customers requiring reliable LED lighting products and technical collaboration from development through production. Further information on product portfolios, applications (such as industrial, architectural, or consumer lighting), and export reach would help clarify its role in global supply chains.